Papers by Keyword: In Vivo

Abstract: This study illustrates effect of cold plasma CAP on the mineral blood components in vivo. the mineral blood component (Ca, Na, Cl, K and Fe) are used. Floating Electrode-Dielectric Barrier Discharge (FE-DBD) system of probe diameter 4cm is used for this purpose, and variable voltage (0-20) kV and variable frequency (0-30) kHz, the output power was ranged from (10 - 70) W. the effect of cold atmospheric plasma on mineral blood is studied with different exposure durations (30,45,60) sec. As the plasma exposure duration increases, the calcium, potassium and iron components in the blood increased, while The sodium and chlorine elements decreased. These results give an indication of the cold plasma receptor to be used to treat many diseases related to mineral blood components.

Abstract: In case of an orthopedic implant, it would be ideal that resorption to occur by biodegradation and bone remodeling. The main advantage of using resorbable orthopedic implants is eliminating the need for a new surgical procedure. The use of pure magnesium for orthopedic implants shows some drawbacks, which need to be considered and evaluated by in vitro and in vivo assays. One of the main problems encountered when pure Mg is used as biodegradable implant is represented by a high corrosion rate, faster than the rate of bone formation. The aim of this study is testing and evaluation of Mg-1Ca alloy from biocompatibility in vivo point of view. The purpose of in vivo test was to demonstrate good biocompatibility and lack of local and systemic toxicity of implants made by Mg-1Ca alloy. The study was conducted by implanting Mg-1Ca alloy parallelepiped shaped implants in the tibia of rabbits. In our tests related to Mg-1Ca alloy in vivo evaluation, there were no pathological increases in blood levels of Mg and Ca, or other elements, showing that it has no adversely affect to their metabolism. Also it shows a good bone integration, newly formed bone being adherent to the implant surface, with no tissue interposed between it and the bone. In conclusion, magnesium alloy Mg-1Ca represents a promising solution in orthopedic surgery, proving to be safe, with a high degree of biocompatibility and without toxic effects during in vivo testing.

Abstract: Surface hydrophilicity is considered to have a strong influence on the biological reactions of bone-substituting materials. However, the influence of a hydrophilic or hydrophobic surface on the osteoconductivity is not completely clear. In this study, we produced super-hydrophilic and hydrophobic surface on Ti-and Zr-alloys. Hydrothermal treatment at 180 ^oC for 180 min. in the distilled water and immersion in x5 PBS(-) brought the super-hydrophilic surface (water contact angle < 10 (deg.)) and heat treatment of as-hydrothermaled the hydrophobic surface. The osteoconductivity of the surface treated samples with several water contact angle was evaluated by in vivo testing. The surface properties, especially water contact angle, strongly affected the osteoconductivity and protein adsorbability, and not the surface substance.

Abstract: Protein adsorption is considered to have a strong influence on the biological reactions of bone-substituting materials. However, the osteoconductivity of protein adsorbed Ti surface is not completely clear. In this study, we produced the protein adsorbed Ti implants using hydro-processing. The hydrothermal treatment in the distilled water gave the super-hydrophilic Ti surface and they had much protein adsorbability. Fibronectin or albumin was picked up as a protein, which was cell adhesive protein and not cell adhesive, respectively. And also, the content of the adsorbed protein was evaluated by FT-IR (ATR) analysis. The water contact angle influenced the amount of the adsorption of the protein and the osteoconductivity of the samples were evaluated by in vivo testing.

Abstract: The aim of this study was to find out the in-vivo radiography density changes of hydroxyapatite coated porous tantalum biomaterial implant after surgical implantation in rats. Ten adult male Sprague Dawley rats were divided into two groups: hydroxyapatite-coated porous tantalum (pTa-HAp) and uncoated porous tantalum (pTa). The implants with dimension of 5 x 2 x 0.5 mm³ was inserted into flatten bone defects drilled at the femur bone on latero-medial region. The implant density from right lateral view radiogram was analyzed at day 0, 7, 14 and 30 post-implantation. The results showed that the radiodensity of both pTa and pTa-HAp groups decreased in time of implantation. The radiodensity changes of pTa-HAp showed higher decrease compared to pTa.

Abstract: In this study, radical scavenging properties and anti-fatigue activities of Angelica sinensis polysaccharides (ASP) were evaluated in vitro and in vivo, respectively. Forced swimming test of mice were carried out after 30 days of ASP administration (60, 120, 240 mg/kg·d), and the blood glucose, blood lactate, hemoglobin, liver glycogen and muscle glycogen were determined. The in vitro study showed that ASP had antioxidant activities, which exhibited scavenging effects on 2,2-Diphenyl-1-picrylhydrazyl (DPPH), hydroxyl and superoxide anions radicals. The in vitro study showed that ASP had anti-fatigue activities, which could extend the exhaustive swimming time, increase levels of blood glucose, hemoglobin, liver glycogen and muscle glycogen activities, and decrease blood lactate levels of mice.

Abstract: This study was designed to evaluate the antioxidant activity of samples extracted from Jinhua ham. The activities of SOD and contents of MDA and NO were measured after mice were kept on feeding the four peaks separated by using chromatographic column. Peak-3 obviously enhanced the activity of SOD and MDA. Peak-1 and peak-2 had little influence on the activity of SOD and MDA. Peak-4 decreased their activities. All peaks obviously decreased content of NO. Results showed that these four peaks had excellent antioxidant activity. Finally, influences of sample extracted from ham on SOD activity, MDA content and GSH-PX activity in vitro of mouse liver and heart were also studied. Certain dose of samples would lead the decrease of SOD activity, MDA content and GSH-PX activity. This results showed that the sample have certain oxidant capacity.

Abstract: Titanium dioxide nanoparticles (TiO₂-NPs) are widely used in many fields. The bio-distribution and toxicology of different sizes (25 nm and 50 nm) of TiO₂-NPs in vivo is evaluated in this paper. The results of quantitative distribution in vivo show that it is difficult for TiO₂-NPs to excretion clearly from tissues and organs. At the endpoint of experiment of different groups, there are still many TiO₂-NPs located in the main organs such as spleen, liver and lung after 120 days. Blood biochemical parameters keep unchanged compared with control group. However, pathological results show that lesions in spleen, liver and lung where TiO₂-NPs particles are mainly accumulated and retained are getting serious with the time prolonging. The results indicate that TiO₂-NPs are low toxic to mice but may have some potential effects on liver and kidney functions after exposure long time. The fundamental importance information gained from such a study will give the guidance on the application of TiO₂-NPs.

Abstract: Anti-corroded valve metals, such as Ti, Nb, Ta, and Zr have been used as metallic biomaterials. However, as untreated surfaces, they do not have high osteoconductivity, and surface coatings with bioactive substances are needed for the implantation into the bone. Surface property, especially hydrophilicity, is considered to have a strong influence on the biological reactions. However, the influence of a hydrophilic surface on osteoconductivity is not completely clear. In this study, we produced super-hydrophilic surface on valve metals (Ti, Nb, Ta and Zr) using a hydrothermal treatment at 180 °C for 180 min. in the distilled water, and then the treated samples were stored in 5PBS(-). This maintained water contact angle less than 10 (deg.) in an apparent. The osteoconducivity of super-hydrophilic treated metals was evaluated with in vivo tests. The hard tissue formation on the samples increased with decreasing the water contact angle. That is to say that super-hydrophilic valve metals without coating of bioactive substances had high osteoconductivity, and the surface properties strongly affected on the osteoconductivity.

Abstract: Hydroxyapatite is the main ceramic material that has being used in bone repair, although its physico-chemical and in vivo behavior should be better understood. A method to improve the biocompatibility of HA is the substitution of calcium with divalent cations which enhance mechanic resistance and can modulate inflammatory response against implanted material. In this study we analyzed the biocompatibility of HA doped with one per cent of Zn²⁺ or Pb²⁺. The first one has being described as an inflammation modulator and the second would be a model for chronic toxicity assay. Biocompatibility of the both materials was studied in vivo following the ISO 10993-6 standard. HA cylinders (ZnHA, PbHA and stoichiometric HA as positive control) were implanted into subcutaneous tissue of 45 Balb-c mice and after 1, 3 and 9 weeks the animals were euthanized (5 for each experimental condition). Necropsies of the skin containing reactional tissue were removed, fixed in 10% formaldehyde and followed the histological processing for paraffin embedding and staining with Hematoxylin-Eosine and Picrosirius red. Microscopic analysis showed for all groups moderate inflammatory response, decreasing throughout the experimental periods, with ZnHA group showing more intense response. Similar presence of macrophages, fibrosis and angiogenesis were observed among the groups. Thereby, we can conclude that ZnHA and PbHA are biocompatible and not bioresorbable, being the ZnHA potentially indicated as bone graft. Detailed studies are required to better understand the role of PbHA as chronic model for lead toxicity.